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Online since: September 2013
Authors: Junaidi Syarif, Zainuddin Sajuri, Amirhossein Baghdadi
Nair, Microstructural analysis and discontinuities in the brazed zone of copper tubes, Journal of Materials Processing Technology, 141 (2003) 302-312
Rethwisch, Fundamentals of Materials Science and Engineering, An Integrated Approach, Third ed., John Wiley & Sons Inc., Hoboken, 2008
Zhao, Experimental and FEM study on sinking of miniature inner grooved copper tube, Journal of Materials Processing Technology, 209 (2009) 5333-5340
Deng, Groove deformation analysis of a single plough on inner copper tube, Journal of Materials Processing Technology, 211 (2011) 1669-1677
Kim, Fabrication of aluminum/copper clad composite using hot hydrostatic extrusion process and its material characteristics, Materials Science and Engineering: A, 384 (2004) 70-76
Rethwisch, Fundamentals of Materials Science and Engineering, An Integrated Approach, Third ed., John Wiley & Sons Inc., Hoboken, 2008
Zhao, Experimental and FEM study on sinking of miniature inner grooved copper tube, Journal of Materials Processing Technology, 209 (2009) 5333-5340
Deng, Groove deformation analysis of a single plough on inner copper tube, Journal of Materials Processing Technology, 211 (2011) 1669-1677
Kim, Fabrication of aluminum/copper clad composite using hot hydrostatic extrusion process and its material characteristics, Materials Science and Engineering: A, 384 (2004) 70-76
Online since: October 2011
Authors: Li Jun Sun, Li Ping Liu, Hai Ming Xu
Applying ion chromatography to analyze the decomposition products, it is proved that nano-titanium dioxide can decompose NOx, HC, CO and other harmful gases into nitrate and carbonate.Then, an excellent concrete protection materials- anticorrosive of silane solvent is selected as dispersion solvent, and a certain amount of titanium dioxide is dispersed evenly in the solvent to make the coating material with photocatalytic performance, the brushing method and decomposition effect of the coating material are discussed.
Compared with other photocatalytic materials ZnO, CdS, WO3, Fe2O3, TiO2 owns good chemical stability, reactivity and other characteristics [7].
Acknowledgements This work was financially supported by the National Science & Technology Pillar Program (2009BAC62B02).
Journal of Highway and Transportation Research and Development. 2009, 26(3): P154-158.
Journal of Henan University of Science & Technology(Natural Science). 2009.2(1): P49-52 (In Chinese) [7] Wei Sun, Zong-Qiang Mao.
Compared with other photocatalytic materials ZnO, CdS, WO3, Fe2O3, TiO2 owns good chemical stability, reactivity and other characteristics [7].
Acknowledgements This work was financially supported by the National Science & Technology Pillar Program (2009BAC62B02).
Journal of Highway and Transportation Research and Development. 2009, 26(3): P154-158.
Journal of Henan University of Science & Technology(Natural Science). 2009.2(1): P49-52 (In Chinese) [7] Wei Sun, Zong-Qiang Mao.
Online since: August 2022
Authors: João M.P.Q. Delgado, A.P.R. Albuquerque
Soluble Salts Transport in Building Materials
A.P.R.
Soluble Salts and Porous Materials 2.1.
Water Transport in Liquid Phase Building materials, porous materials, absorb water.
Brown, Chemistry: the central science: Pearson Education, 2009
Journal of Cultural Heritage. vol. 7, pp. 79-84
Soluble Salts and Porous Materials 2.1.
Water Transport in Liquid Phase Building materials, porous materials, absorb water.
Brown, Chemistry: the central science: Pearson Education, 2009
Journal of Cultural Heritage. vol. 7, pp. 79-84
Online since: July 2014
Authors: Remdane Boutemeur, Mustapha Demidem, El Hadi Benyoussef, Abderrahim Bali
Perry: Materials and Structures, Vol. 24, No. 144, (1991), p. 425
[4] C.A.
Hughes: ACI Materials Journal, 93, (1996), p. 293 [5] J.F.
Klepaczko: Mechanics of Materials. 38, (2006), p. 253 [13] B.
Gani: Journal of Applied Sciences. 3, (2010), p. 145 [21] Y.
Wang: Science China Technological Sciences. 53 (2010), p. 2435 [22] Z.
Hughes: ACI Materials Journal, 93, (1996), p. 293 [5] J.F.
Klepaczko: Mechanics of Materials. 38, (2006), p. 253 [13] B.
Gani: Journal of Applied Sciences. 3, (2010), p. 145 [21] Y.
Wang: Science China Technological Sciences. 53 (2010), p. 2435 [22] Z.
Online since: December 2023
Authors: Antonio Ferreira Miguel
CFD Analysis of Perforated Plates and Open-Cell Materials Aerodynamics
Antonio F.
Miguel1,2,* 1Department of Physics, University of Évora, Portugal 2Institute of Earth Sciences, Pole of Évora, Portugal *afm@uevora.pt Keywords: perforated places, open-cell materials, fluid flow, dimensionless loss factor, permeability, Forchheimer coefficient, aerodynamics.
The analysis frequently employed for porous materials can also be used.
Perforated panels with square holes and open-cell materials with cubic cells serve as representations of solid materials with voids.
Zhu, Materials 14 (2021) 3153
Miguel1,2,* 1Department of Physics, University of Évora, Portugal 2Institute of Earth Sciences, Pole of Évora, Portugal *afm@uevora.pt Keywords: perforated places, open-cell materials, fluid flow, dimensionless loss factor, permeability, Forchheimer coefficient, aerodynamics.
The analysis frequently employed for porous materials can also be used.
Perforated panels with square holes and open-cell materials with cubic cells serve as representations of solid materials with voids.
Zhu, Materials 14 (2021) 3153
Online since: August 2013
Authors: Xiu Rong Li, De Hua Li, Liu Na, Bing Zhao Liang, Xiao Na Yin
On the Application of Green Ionic Liquids in the Preparation Process
of the Gel-type Wood Composites Materials
Xiurong Li1,a, Bingzhao Liang2*,b,Dehua Li3,c, Na Liu 4,d,Xiaona Yin 5,e
1 ,2,4,5College of Forestry, Guangxi University, Nanning, Guangxi 530005 P.R.CHINA
3 Department of Arts , Rizhao Polytechnic, Rizhao,Shandong,276826 P.R.CHINA
arongrong1994@163.com, bLbingzhao@163.com,cyanxue80629@163.com
d25806829@qq.com ,e1269474274@qq.com
Keywords: Green Ionic Liquids; Gel Structure; Wood Composite Materials; Visual characteristics
Abstract.
Progress in Polymer Science, 2009, 34: 1333—1347 [2] Phillips D M, Drummy L F, Conrady D G, Fox D M, Naik R R, Stone M O, Trulove P C, De Long H C, Mantz R A.
Chem., 2008, 10: 44—46 [6] Xiurong Li,Yunlin Fu,Tao Jiang,Jing Sun.The Preparation and Research of The Aerogel-type Wood Composite Material, Advanced Materials Research Vols.634-638(2013),pp 1124-1128 [7] Y.
Materials Research Innovations, 2011, 15(S1): 446-449
Journal of Applied Polymer Science, 2013,128(1):13-20
Progress in Polymer Science, 2009, 34: 1333—1347 [2] Phillips D M, Drummy L F, Conrady D G, Fox D M, Naik R R, Stone M O, Trulove P C, De Long H C, Mantz R A.
Chem., 2008, 10: 44—46 [6] Xiurong Li,Yunlin Fu,Tao Jiang,Jing Sun.The Preparation and Research of The Aerogel-type Wood Composite Material, Advanced Materials Research Vols.634-638(2013),pp 1124-1128 [7] Y.
Materials Research Innovations, 2011, 15(S1): 446-449
Journal of Applied Polymer Science, 2013,128(1):13-20
Online since: January 2013
Authors: Qian Cheng Zhao, Guan Pei Ni, Zhi Bo Li, Jian Wei Li, Gui Bin Wang
In this study, frozen Pollock was taken as raw materials, and the effect of different phosphates (sodium pyrophosphate, sodium tripolyphosphate and sodium hexametaphosphate) on weight gain, thawing loss and cooking yield of Pollock fillets were studied.
Material and methods Raw materials.
K: Journal of Food Science, Vol 69 (2004), p. 145 [7] ALEX AUGUSTO GONÇALVES, JOSÉ LUIS DUARTE RIBEIRO: Pan-American Journal of Aquatic Sciences, Vol 3 (2008) , p. 238 [8] P.R.Sheard and A.Tali: Meat Science, Vol 68 (2004), p. 307 [9] N.R ATTANASATHEIRN, S.BENJAKUL, W.VISESSANGUAN and K.K IJROONGROJANA: JOURNAL OF FOOD SCIENCE.Vol.73, Nr.1 (2008), p. 32 [10] Scott DN, Porter RW, Kudo G, Miller R, and Koury B: Food Sci.
Wicker: JOURNAL OF FOOD SCIENCE.Vol 64, No.6 (1999), p. 1042 [12] Beom Jun Lee, Deloy G.
Hendricks & Daren P.Cornforth: Meat Science, Vol.50, No.3 (1998), p. 273 [13] S.KIN, M.W.SCHILLING, B.S.SMITH, J.L.SILVA, V.J ACKSON, ANDT.J.KIM: JOURNAL OF FOOD SCIENCE.Vol.75, Nr.1 (2010) [14] X.
Material and methods Raw materials.
K: Journal of Food Science, Vol 69 (2004), p. 145 [7] ALEX AUGUSTO GONÇALVES, JOSÉ LUIS DUARTE RIBEIRO: Pan-American Journal of Aquatic Sciences, Vol 3 (2008) , p. 238 [8] P.R.Sheard and A.Tali: Meat Science, Vol 68 (2004), p. 307 [9] N.R ATTANASATHEIRN, S.BENJAKUL, W.VISESSANGUAN and K.K IJROONGROJANA: JOURNAL OF FOOD SCIENCE.Vol.73, Nr.1 (2008), p. 32 [10] Scott DN, Porter RW, Kudo G, Miller R, and Koury B: Food Sci.
Wicker: JOURNAL OF FOOD SCIENCE.Vol 64, No.6 (1999), p. 1042 [12] Beom Jun Lee, Deloy G.
Hendricks & Daren P.Cornforth: Meat Science, Vol.50, No.3 (1998), p. 273 [13] S.KIN, M.W.SCHILLING, B.S.SMITH, J.L.SILVA, V.J ACKSON, ANDT.J.KIM: JOURNAL OF FOOD SCIENCE.Vol.75, Nr.1 (2010) [14] X.
Online since: June 2011
Authors: Cheng Liu, Zong Juan Lu
Journal of Purchasing,no.2,
(1966),p. 5-17
European Journal Operational Research, no.50,(1991),p.2-18
European Journal Operational Research, no.76,(1994),p. 387-396
Study on collaboration-supply in supply chain.Journal of Management Science in China,Vol.5,no.2,(2002),p.29-33
Nature Science Journal of Xiangtan University,Vol.31, no.2,(2009), p.160-165
European Journal Operational Research, no.50,(1991),p.2-18
European Journal Operational Research, no.76,(1994),p. 387-396
Study on collaboration-supply in supply chain.Journal of Management Science in China,Vol.5,no.2,(2002),p.29-33
Nature Science Journal of Xiangtan University,Vol.31, no.2,(2009), p.160-165
Online since: March 2013
Authors: Yan Shu Liu
Honing TC11 titanium alloy material the choice of stone
Liu Yan Shu
School of Mechanical Engineering, Xi’an Shiyou University
Zhuzhu12341997@sina.com
Keywords: Titanium alloy; Deep-Hole honing; Honing Stones material; Honing Stones wear
Abstract: Based on the study of cutting properties of titanium alloy, and according to its features, several commonly used honing stones materials are selected to carry out the wear experiments of deep-hole honing for the alloy. the analysis of the experiments results shows the suitable for titanium alloy TC11 deep-hole drilling is identified.
1.
Intorduction With the advance of science and technology, especially in recent years, aerospace manufacturing, atomic energy, electric power, petroleum equipment etc the rapid development of the industry, the machine and its spare parts material performance put forward higher request. and titanium alloy with its excellent mechanical properties, KangFuXing can, diamagnetic can, resisting high temperature oxidation performance and so on, in the industry has rapidly application..demand titanium alloy tube parts also more and more, especially with high precision requirements of the titanium alloy tube parts number is more and more titanium alloy is is a kind of hard processing material, it's the cutting itself is very difficult, talked about deep hole precision processing that is a difficult task. therefore, how to realize the titanium alloy for deep hole precision machining is the current cheng to solve the problem. this paper through the test of TC11 titanium alloy to choose the suitable
honing stone material, to improve the precision of the titanium alloy material processing has certain instructive significance. 2.Sample preparation and test method 2.1 Sample preparation The matrix for single crystal corundum , white corundum,the silicon carbide according to certain proportion as mixed abrasive stone (mixed abrasive stone abrasive separable give priority to abrasive and auxiliary abrasive two),according to what I often machining titanium alloy precision requirements will single crystal corundum (SA), white corundum (WA)and green silicon carbide(GC)abrasive according to the following kinds of mixing ratio of the honing stone (table 1 ). the adhesive using ceramic glue and vulcanization processing.the mixed stone hardness for K level main abrasive particle size for 100#,auxiliary abrasive particle size for fine level 120#。
As a result of our repeated test obtain the final grinding TC11 titanium alloy material, the best proportion is: GC (70%), SA (30%) mixed honing stone.
[3] Lian Pin etc, Abrasive materials of the new development [J],Journal of modern manufacturing engineering. 2003 (8) : 53 ~ 56.
Intorduction With the advance of science and technology, especially in recent years, aerospace manufacturing, atomic energy, electric power, petroleum equipment etc the rapid development of the industry, the machine and its spare parts material performance put forward higher request. and titanium alloy with its excellent mechanical properties, KangFuXing can, diamagnetic can, resisting high temperature oxidation performance and so on, in the industry has rapidly application..demand titanium alloy tube parts also more and more, especially with high precision requirements of the titanium alloy tube parts number is more and more titanium alloy is is a kind of hard processing material, it's the cutting itself is very difficult, talked about deep hole precision processing that is a difficult task. therefore, how to realize the titanium alloy for deep hole precision machining is the current cheng to solve the problem. this paper through the test of TC11 titanium alloy to choose the suitable
honing stone material, to improve the precision of the titanium alloy material processing has certain instructive significance. 2.Sample preparation and test method 2.1 Sample preparation The matrix for single crystal corundum , white corundum,the silicon carbide according to certain proportion as mixed abrasive stone (mixed abrasive stone abrasive separable give priority to abrasive and auxiliary abrasive two),according to what I often machining titanium alloy precision requirements will single crystal corundum (SA), white corundum (WA)and green silicon carbide(GC)abrasive according to the following kinds of mixing ratio of the honing stone (table 1 ). the adhesive using ceramic glue and vulcanization processing.the mixed stone hardness for K level main abrasive particle size for 100#,auxiliary abrasive particle size for fine level 120#。
As a result of our repeated test obtain the final grinding TC11 titanium alloy material, the best proportion is: GC (70%), SA (30%) mixed honing stone.
[3] Lian Pin etc, Abrasive materials of the new development [J],Journal of modern manufacturing engineering. 2003 (8) : 53 ~ 56.
Online since: June 2023
Authors: Basappa C. Yallur, Vinayak Adimule, Sheetal R. Batakurki, Eliza Ahmed
Materials 15.21 (2022): 7591
Journal of Science: Advanced Materials and Devices. 5, 2 (2020) 185-191
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181 [24] Adimule Vinayak, Basappa C.
Journal of Materials Engineering and Performance. 29, 7 (2020) 4586-4596
Journal of Inorganic and Organometallic Polymers and Materials. 30, 11 (2020) 4615-4621
Journal of Science: Advanced Materials and Devices. 5, 2 (2020) 185-191
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181 [24] Adimule Vinayak, Basappa C.
Journal of Materials Engineering and Performance. 29, 7 (2020) 4586-4596
Journal of Inorganic and Organometallic Polymers and Materials. 30, 11 (2020) 4615-4621